Quobly
Silicon-based quantum computing startup targeting 100 physical qubits with CMOS-compatible technology.
Recent News
SEALSQ and Quobly Sign $5M Deal to Secure Silicon Quantum Computing Platforms - HPCwire
SEALSQ and Quobly Execute $5M Commercial Accord to Embed Post-Quantum Cryptography in Silicon Quantum Processors - Quantum Computing Report
SEALSQ and Quobly Execute $5M Commercial Accord to Embed Post-Quantum Cryptography in Silicon Quantum Processors
FPGA-Based Hardware Architecture for Real-Time Decoding of Quantum LDPC Codes Using GARI
Welinq and OVHCloud Partner on Networked Quantum Computing Architectures
OVHcloud Expands Quantum Platform and Launches Quantum Networking Collaboration - The Quantum Insider
OVHcloud Expands Quantum Platform and Launches Quantum Networking Collaboration
Quobly Raises €115 Million Series A To Bring Silicon-Based Quantum Computers To Market By End Of 2026 - Pulse 2.0
Quobly raises EUR €115 million in Series A funding - IT Brief UK
Quobly Secures €115 Million in Series A Funding for Quantum Computing Expansion - Global Legal Chronicle
Air Liquide Invests in Quobly: Quantum Computing Startup Secures Series A Funding - News and Statistics - IndexBox
Quobly Closes €115 Million ($133.5 Million USD) Series A to Industrialize Silicon-Spin Qubit Processors
Quobly raises €115 million to accelerate silicon quantum computer commercialisation - Scientific Computing World
Quobly Secures Euros 115 Million Series A to Commercialize Silicon Quantum Computers - World Business Outlook
Quobly Raises €115M Led by Bpifrance, STMicroelectronics, and Sealsq - News and Statistics - IndexBox
Related Research
Confinement drives valley splitting above 4K in buried silicon quantum wells
Routing Techniques for Error Corrected Silicon Spin Qubit Quantum Architectures
Simulation of Two-qubit Gate Variability and Fidelity of Spin Qubits Built on Nanosheet Technology
Pulse-optimised circuit elements for scalable and noise-resilient quantum chemistry
Impact of gate-voltage noise on silicon spin-qubit variational quantum eigensolvers
Hardware-Tailored Resource Estimation for Magic-State Distillation on Silicon Spin Qubits
Energy efficiency of quantum computers
Understanding oxide-thickness-dependent variability in dense Si-MOS quantum dot arrays
Surface-Code Thresholds and Qubit Footprints in Shuttling-Based Spin-Qubit Railways
Spectral tuning of single T centres by the Stark effect
Funding History
| Round | Amount |
|---|---|
| Other | $124M |
| Series A | $124M |
| Strategic Investment | $124M |
| Grant | $23M |
Silicon Spin Competitors
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